I. Ikushima et al., HIGH-PERFORMANCE COMPACT OPTICAL WDM TRANSCEIVER MODULE FOR PASSIVE DOUBLE STAR SUBSCRIBER SYSTEMS, Journal of lightwave technology, 13(3), 1995, pp. 517-524
High-performance transceiver-type optical WDM interface modules with a
volume of only 36 cc have been developed for PDS subscriber systems.
The new module comprises an optical WDM sub-module, hybrid-integrated
transmitter and receiver circuits. In the WDM sub-module, a planar lig
htwave circuit chip was hermetically sealed together with laser and ph
otodiode chips in order to minimize the size of the transceiver module
. The lightwave circuit was formed on an optical-waveguide chip by ado
pting a high-silica based optical-waveguide technology. The circuit ha
s a 3-dB directional coupler for bi-directional transmission with a 1.
3-mu m wavelength through a single fiber and a wavelength division mul
tiplexer between both 1.3-mu m and 1.55-mu m wavelengths. The overall
characteristics of the fabricated WDM sub-module achieved were a respo
nsitivity of 0.25+/-0.05 A/W, an insertion loss approximately 3 dB at
1.55 mu m and an isolation of 35 dB between both wavelengths. Optical
output power of the fabricated transceiver module was -3.8 dBm. Also,
receiver sensitivity of less than -35 dBm with an overload of over -14
dBm were obtained by introducing high-speed automatic gain and thresh
old control techniques. Thus, an allowable span loss of over 30 dB and
an optical dynamic range of over 20 dB were attained. The preamble bi
t length required to reach stable receiver operation was confirmed to
be within three bits.